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Extend Class Method in Python

In Python, when a subclass defines a function that already exists in its superclass in order to add some other functionality in its own way, the function in the subclass is said to be an extended method and the mechanism is known as extending. It is a way by which Python shows Polymorphism. This is similar to overriding in Java and virtual methods in C++. A call from the instance of the subclass executes the subclass’s version of the function. To call superclass’s version super() method is used.

Why Extend a Function?
The goal of extending a class method in Python can be achieved by Inheritance. One of the major advantages provided by extending a method is that it makes the code reusable. Further, multiple subclasses can share the same code and are even allowed to update it as per the requirement.

We’ll deal with both cases here

CASE 1: without extending a class method




# definition of superclass "Triangles"
class Triangles(object):
      
    count = 0
      
    # Calling Constructor
    def __init__(self, name, s1, s2, s3):
        self.name = name
        self.s1 = s1
        self.s2 = s2
        self.s3 = s3
        Triangles.count+= 1
  
    def setName(self, name):
        self.name = name
  
    def setdim(self, s1, s2, s3):
        self.s1 = s1
        self.s2 = s2
        self.s3 = s3
  
    def getcount(self):
        return Triangles.count
       
    def __str__(self):
        return 'Name: '+self.name+'\nDimensions: '+str(self.s1)+','+str(self.s2)+','+str(self.s3)
      
      
# describing a subclass 
# inherits from Triangles
class Peri(Triangles):
      
    # function to calculate the area     
    def calculate(self):
        self.pm = 0
        self.pm = self.s1 + self.s2 + self.s3
         
    # function to display just the area 
    # because it is not extended
    def display(self):
        return self.pm
          
      
def main():
      
    # instance of the subclass
    p = Peri('PQR', 2, 3, 4)
    # call to calculate()
    p.calculate()
    # explicit call to __str__()
    print(p.__str__())
    # call to display()
    print(p.display())
      
main()


Output:

Name: PQR
Dimensions: 2, 3, 4
9

CASE 2: extending a class method




# definition of superclass "Triangles"
class Triangles(object):
      
    count = 0
      
    def __init__(self, name, s1, s2, s3):
        self.name = name
        self.s1 = s1
        self.s2 = s2
        self.s3 = s3
        Triangles.count+= 1
  
    def setName(self, name):
        self.name = name
  
    def setdim(self, s1, s2, s3):
        self.s1 = s1
        self.s2 = s2
        self.s3 = s3
  
    def getcount(self):
        return Triangles.count
  
    # superclass's version of display()
    def display(self):
        return 'Name: '+self.name+'\nDimensions: '+str(self.s1)+', '+str(self.s2)+', '+str(self.s3)
  
# definition of the subclass
# inherits from "Triangles"
class Peri(Triangles):
          
    def calculate(self):
        self.pm = 0
        self.pm = self.s1 + self.s2 + self.s3
         
    # extended method 
    def display(self):
          
        # calls display() of superclass 
        print (super(Peri, self).display())
          
        # adding its own properties 
        return self.pm
          
      
def main():
      
    # instance of the subclass
    p = Peri('PQR', 2, 3, 4)
      
    # call to calculate
    p.calculate()
      
    # one call is enough 
    print(p.display())
      
main()


Output:

Name: PQR
Dimensions: 2, 3, 4
9

The output produced in both cases is the same, the only difference being that the second case makes it easier for other subclasses to inherit the methods and “extend” them as required which as mentioned increases code reusability.

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